CN205961653U - Uniform heat dissipation temperature control device and cabinet type device thereof - Google Patents

Abstract

The utility model discloses an uniform heat dissipation temperature control device and cabinet type device thereof belongs to the air conditioning system field. It includes the indoor cyclic part of cooling system, the outdoor cyclic part of cooling system, indoor external diaphragm and holds the casing of these parts, the indoor cyclic part of cooling system with the outdoor cyclic part of cooling system passes through indoor external diaphragm separates, the indoor cyclic part of cooling system includes heat exchanger and interior fan module, the heat exchanger sets up a plurality of flow paths along the length direction of casing is vertical, interior fan module is followed the vertical direction setting of heat exchanger. This application changes traditional air supply mode, through air supply temperature, air supply volume and supply air velocity optimal design, finally guarantees radiating even high efficiency.

Description

A kind of Homogeneouslly-radiating attemperating unit and its cabinet type device

Technical field

The utility model is related to air-conditioning system field, especially a kind of is applied to uniformly dissipating of the heat-producing devices such as higher rack Hot attemperating unit and its cabinet type device.

Background technology

With the development of information age, knowledge information enters into all trades and professions with explosive growth, and this results in hot-fluid Density is increasing, and the heat dissipation problem that rack faces is increasingly severe.Current heat dissipation equipment typically adopts air cooled side Formula radiates, but the space of heat dissipation equipment is little, and refrigerating capacity is limited, currently employed on send next time or under the air-flow group served back Knit form, be very easy to that the too high phenomenon of local temperature occurs.

Chinese patent application 201310651716.3 discloses a kind of high efficiency and heat radiation air-conditioning system of rack-mount server rack System, including refrigeration module, the cabinet with air inlet, refrigeration module passes through air inlet and conveys cold air to cabinet, sets in cabinet There is dividing plate, the side of this dividing plate is air channel, and opposite side is the receiving space for placing server, and the cross section in air channel is along air Flow to gradient to reduce, dividing plate is placed with some air inlets along air flow, each air inlet is equipped with arc deflector.Logical Cross dividing plate to reduce along air flow gradient so that entering the speed phase of the cold air of each wind gap the cross section to realize air channel Equal Deng, air quantity, realize Homogeneouslly-radiating.

Such scheme has the following disadvantages：

1) it is difficult to control to through the speed of each wind gap, air quantity；

2) even if the speed of each wind gap, air quantity are equal, due to cold air enter wind gap before pass through away from From there being bigger difference, higher especially for rack, send air port back to apart from larger rack, still occur upper cold and lower heat or under cold The situation of upper heat.

Utility model content

Goal of the invention of the present utility model is：For above-mentioned problem, provide a kind of structure simple, radiating is all Even attemperating unit and its cabinet type device.

The technical solution adopted in the utility model is as follows：A kind of Homogeneouslly-radiating attemperating unit, follows including cooling system interior Loop section, cooling system outdoor cyclic part, indoor external partition and the housing accommodating these parts, cooling system indoor circulation Part is passed through indoor external partition with cooling system outdoor cyclic part and is separated；Cooling system indoor circulation part include heat exchanger and Inner blower module；

Heat exchanger is vertically arranged along the length direction of housing, and inner blower module is arranged along heat exchanger vertical direction.

By being vertically arranged to main heat sink part, change traditionally send next time or under the air current composition served back, right Heat generating components carries out Homogeneouslly-radiating, the local damage preventing heat generating components because radiating is uneven and leading to.

Further, the housing side of attemperating unit can be opened.

Based on the purpose of convenient maintenance, the housing side of attemperating unit is provided with a lock door, maintenance personal only needs handle Lock door is opened and can be carried out daily maintenance work.

Described cooling system is vapor compression refrigeration systems or heat pipe air conditioner integrated machine system or pure water cooling system Etc. various temperature controlled radiating systems.If cooling system is vapor compression refrigeration systems, outdoor cyclic part include condenser, Compressor, outer blower fan and electric-control system；Heat exchanger and inner blower module are passed through indoor external partition and are separated with outdoor cyclic part；Room Interior external partition is detachable installation near the outside of lock door.

Further, the air supply mode of cooling system indoor circulation part is horizontal blast.

Further, the air return method of cooling system indoor circulation part is horizontal return air.

Further, inner blower module is one or more.

Inner blower number of modules is adjusted according to the length of attemperating unit and the performance of blower fan, to ensure heat-producing device Air output everywhere and air supply velocity are uniform.

Inner blower module, sending in heat-producing device by the cold air level of heat exchanger, carries out cooling down it to heat-producing device Afterwards, then horizontally enter in cooling system indoor circulation, thus forming circulation.

Further, heat exchanger is vertically provided with multiple streams.

In view of the effect of refrigeration, multiple streams are set in the vertical direction of evaporimeter, to ensure wind pushing temperature everywhere Uniformly.

Further, inner blower number of modules be two, have between two inner blower modules space bar physical isolation or No space bar.

A kind of cabinet type device applying Homogeneouslly-radiating attemperating unit, including attemperating unit and work cabinet, attemperating unit Connect with work cabinet, work cabinet forms air inlet duct and exhaust passage, cooling system indoor circulation part and work by internal partition Make cabinet and constitute indoor circulation.

Further, it is provided with accommodating chamber between the air inlet duct in work cabinet and exhaust passage, be provided with accommodating chamber Air inlet and air outlet, air inlet is connected with air inlet duct, and air outlet is connected with exhaust passage.

Vertically uniformly put heat-producing device in accommodating chamber, inner blower module by the cold air of heat exchanger along entering Air channel level is sent in accommodating chamber, and cold air cincture heat-producing device is after one week, then is horizontally entered into by air outlet and exhaust passage In the evaporimeter of cooling system, thus forming circulation.

In sum, due to employing technique scheme, the beneficial effects of the utility model are：Change traditional air-supply Pattern, by wind pushing temperature, air output and air supply velocity optimization design, the final uniform high-efficiency ensureing radiating.

Brief description

The utility model will be illustrated by example and with reference to the appended drawing, wherein：

Fig. 1 is the overall structure diagram of attemperating unit；

Fig. 2 is the front view of attemperating unit；

Fig. 3 is the left view that attemperating unit removes shell；

Fig. 4 is the front view of cabinet type device；

Fig. 5 is the A-A sectional view of Fig. 4；

Fig. 6 is the another structural representation of Fig. 5.

Specific embodiment

Below in conjunction with the accompanying drawings, the utility model is described in detail.

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to the utility model.It should be appreciated that specific embodiment described herein is only in order to solve Release the utility model, be not used to limit the utility model.

As shown in Figure 1, Figure 3, a kind of Homogeneouslly-radiating attemperating unit 1, including cooling system indoor circulation part 2, cooling system The outdoor cyclic part 3 of system, indoor external partition 4 and the housing 5 accommodating these parts, cooling system indoor circulation part 2 with cold But system chambers outer circulation part 3 is separated by indoor external partition 4；Cooling system indoor circulation part 2 includes heat exchanger 201 and interior Blower fan module 202；

Heat exchanger 201 is vertically arranged along the length direction of housing 5, and inner blower module 202 sets along heat exchanger 201 vertical direction Put.Internal partition 7 is installed between heat exchanger 201 and inner blower module 202 thus forming cold and hot air channel.

In view of the effect of refrigeration, multiple streams are set in the vertical direction of heat exchanger 201, to ensure air-supply temperature everywhere Degree is uniformly.(not showing in flow circuit diagram)；

Inner blower module 202 number is adjusted according to the length of attemperating unit and the performance of blower fan, to ensure to generate heat Equipment air output everywhere and air supply velocity are uniform.Space bar 203 can be set between inner blower module 202 two-by-two to inner blower Module 202 is separated.

Based on the purpose of convenient maintenance, the lock door 501 that can open in the setting of housing 5 side of attemperating unit 1, keep in repair people Member only need to open lock door 501 and can carry out daily maintenance work.

As shown in Figure 1, Figure 2, Figure 3 shows, cooling system be vapor compression refrigeration systems or heat pipe air conditioner integrated machine system or The various temperature controlled radiating system such as person's pure water cooling system.

If cooling system is vapor compression refrigeration systems, outdoor cyclic part includes electric-control system 301, condenser 302nd, outer blower fan 303 and compressor 304；Heat exchanger 201 and inner blower module 203 pass through indoor external partition 4 and outdoor circulation portions Divide 3 separations；Indoor external partition 4 is detachable installation near the outside of lock door 501.

As shown in Figure 4, Figure 5, a kind of cabinet type device applying Homogeneouslly-radiating attemperating unit 1, including attemperating unit 1 and work Make cabinet 6, attemperating unit 1 and work cabinet 6 connect, and work cabinet 6 forms air inlet duct 8 and exhaust passage 9 by internal partition 7, cold But system indoor circulation part 2 and work cabinet 6 constitute indoor circulation.

Work cabinet 6 in air inlet duct 8 and exhaust passage 9 between be provided with accommodating chamber 10, be provided with accommodating chamber 10 with Air inlet 11 and the air outlet (not shown) being connected with exhaust passage that air inlet duct is connected.Can place in accommodating chamber 10 Heat-producing device, for Homogeneouslly-radiating, inner blower module 202 coordinates the caloric value reasonable disposition of heat-producing device.

As shown in Figure 5, Figure 6, the direction that the arrow in air inlet duct 8 and exhaust passage 9 flows for gas.Air (warm braw) warp After crossing the cooling of heat exchanger 201, air inlet duct 8 is horizontally entered into by inner blower module 202, then proceed to the air intake from accommodating chamber 10 Mouth 11 enters in accommodating chambers 10 and enters back into heat exchanger by air outlet level through exhaust passage 9 around heat-producing device after one week 201, thus forming circulation.

From above scheme as can be seen that the air supply mode of indoor air circulation is horizontal blast, air return method returns for level Wind.The application changes traditional air supply pattern, and by wind pushing temperature, air output and air supply velocity optimization design, final guarantee dissipates The uniform high-efficiency of heat.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all this Any modification, equivalent and improvement made within the spirit of utility model and principle etc., should be included in the utility model Protection domain within.

Claims (8)

1. a kind of Homogeneouslly-radiating attemperating unit, including cooling system indoor circulation part, cooling system outdoor cyclic part, interior External partition and the housing that accommodates these parts it is characterised in that：Described cooling system indoor circulation part and described cooling system The outdoor cyclic part of system passes through described interior external partition and separates；Described cooling system indoor circulation part includes heat exchanger and interior wind Machine module；

Described heat exchanger is vertically arranged along the length direction of housing, and described inner blower module sets along described heat exchanger vertical direction Put.

2. as claimed in claim 1 a kind of Homogeneouslly-radiating attemperating unit it is characterised in that：Described cooling system indoor circulation portion The air supply mode dividing is horizontal blast.

3. as claimed in claim 1 a kind of Homogeneouslly-radiating attemperating unit it is characterised in that：Described cooling system indoor circulation portion The air return method dividing is horizontal return air.

4. as claimed in claim 1 a kind of Homogeneouslly-radiating attemperating unit it is characterised in that：Described inner blower module be one or Multiple.

5. as claimed in claim 1 a kind of Homogeneouslly-radiating attemperating unit it is characterised in that：Described heat exchanger vertically sets It is equipped with multiple streams.

6. as claimed in claim 1 a kind of Homogeneouslly-radiating attemperating unit it is characterised in that：Described inner blower number of modules is two Individual, there are space bar or no space bar between two inner blower modules.

7. a kind of cabinet type device applying claim 1, including attemperating unit and work cabinet, described attemperating unit and described Work cabinet connects, and described attemperating unit includes cooling system indoor circulation part, cooling system outdoor cyclic part, indoor and outdoor Dividing plate and the housing that accommodates these parts it is characterised in that：

Described cooling system indoor circulation part is passed through described interior external partition with described cooling system outdoor cyclic part and is separated； Described cooling system indoor circulation part includes heat exchanger and inner blower module；

Described heat exchanger is vertically arranged along the length direction of housing, and described inner blower module sets along described heat exchanger vertical direction Put；

Described work cabinet forms air inlet duct and exhaust passage, described cooling system indoor circulation part and described work by internal partition Make cabinet and constitute indoor circulation.

8. as claimed in claim 7 a kind of cabinet type device it is characterised in that：Described air inlet duct in described work cabinet and Be provided with accommodating chamber between described exhaust passage, be provided with described accommodating chamber the air inlet being connected with described air inlet duct and with The air outlet that described exhaust passage is connected.